| 1. | Transit - time flowmeters in full closed conduits
全闭路导管中运送时间流量计 |
| 2. | Improvement on transit - time ultrasonic flowmeter
时差法超声流量计的改进 |
| 3. | Numerical simulations of c - band three - cavity transit - time oscillator
波段三腔渡越时间振荡器的数值模拟 |
| 4. | Hydrodynamic theory of the interaction in radial transit - time oscillator
径向渡越时间振荡器互作用特性的流体理论分析 |
| 5. | Measurement of liquid flow in closed conduits using transit - time ultrasonic flowmeters
在封闭导管中用渡越时间超声波流量计测量液体流量 |
| 6. | Liquid flow in closed conduits using transit - time ultrasonic flow meters , measurement of
用过渡时间超声流量计测量密封管道中的液体流量 |
| 7. | Measurement of fluid flow in closed conduits - methods using transit - time ultrasonic flowmeters
封闭式管道中液体流量的测量.使用转接-时间超声流量计法 |
| 8. | The experimental study is performed on the rtto designed with the help of simulation , and the microwave based on radial transit - time effect is obtained . the output power is measured by horn and electric probe and the frequency is measured by a wave - guide dispersion line
实验采用喇叭天线接收和电探针恻量两朴方法时微波功率迭行了恻量,微波颂率用波导色散线法迭行恻量。 |
| 9. | Radial transit time oscillator ( rtto ) is a promising novel high power microwave source based on the radial transit - time effect . it can operate under the condition of low impedance and without external guiding magnetic fields
径向渡越时间振荡器( radialtransittimeoscillator ,简称rtto )是一种前景光明的基于径向渡越时间效应的新型高功率微波源,能在低阻抗、无外加磁场条件下工作。 |
| 10. | Under the cylindrical coordinate , the transit - time effect of the radial gap in the resonance cavity of rtto is studied by hydrodynamic theory . the equation describing the interaction between the electron beam and the high frequency field is obtained
在柱坐标系统中,我们用流体理论方法分析了rtto谐振腔间隙的渡越时间效应,得到了在有限渡越角情况下电子束与高频场相互作用的方程。 |
